JP4481962B2 - Power supply device, amplification device, radio device, and playback device - Google Patents

Description

  The present invention relates to a power supply device, an amplifying device, a wireless device, and a playback device that stabilize power output.

  With the reduction in voltage of systems such as electrical products, highly accurate power supplies used for analog circuits are required. In particular, when the quality of power such as voltage fluctuation is directly related to the quality of the circuit output, such as a final stage power amplifier in a wireless device or a class A amplifier in a playback device, a power supply device that is not affected by the load as much as possible is required.

  As a characteristic representing the quality of such a power supply device, there is a power supply rejection ratio (PSRR). PSRR is the ratio at which the power supply voltage fluctuation becomes the input fluctuation of the amplifier or the like. In a power supply device such as a switching regulator (for example, see Patent Document 1), PSRR is usually improved by providing a large-capacity bypass capacitor.

However, the addition of components such as capacitors is a factor that increases the size of the power supply device. Further, the load must be estimated in advance for determining the capacitor capacity and the like, and when the load changes, it is difficult to stabilize the power supply voltage and effectively improve PSRR.
Japanese Patent Laid-Open No. 2005-6402

  As described above, the conventional power supply device, amplification device, wireless device, and playback device have a problem that it is difficult to stabilize the power supply voltage when the load changes, and the device becomes large. The present invention has been made to solve such a problem, and an object thereof is to provide a power supply device, an amplification device, a wireless device, and a playback device that can control the stability of the power supply voltage in accordance with the load. Yes.

To achieve the above object, a power supply apparatus according to a first aspect of the present invention is a power supply apparatus that supplies power to an amplifier, and stabilizes the power supply voltage based on a PFM signal or a PWM signal that adjusts voltage fluctuations of the power supply A switching regulator, an amplitude acquisition unit that acquires amplitude value information from an input signal of an amplifier, a conversion table that stores amplitude value information and frequency information of a PFM signal or a PWM signal corresponding to the amplitude value information, and an amplitude acquisition unit And a control amount determination unit that reads out the corresponding frequency information from the conversion table based on the amplitude value information obtained by the above and controls the frequency of the PFM signal or the PWM signal based on the read information.

An amplifying device according to a second aspect of the invention includes an amplifying unit that amplifies an input signal, a switching regulator that stabilizes the voltage of the power source based on a PFM signal or a PWM signal that adjusts voltage fluctuations of the power source supplied to the amplifying unit, An amplitude acquisition unit that acquires amplitude value information from an input signal, a conversion table that stores amplitude value information and frequency information of a PFM signal or a PWM signal corresponding to the amplitude value information, and an amplitude value acquired by the amplitude acquisition unit A control amount determining unit that reads out the corresponding frequency information from the conversion table based on the information, and controls the frequency of the PFM signal or the PWM signal based on the read information.

According to a third aspect of the present invention, there is provided a wireless device comprising: an amplifying unit that amplifies a transmission signal; a switching regulator that stabilizes a power supply voltage based on a PFM signal or a PWM signal that adjusts voltage fluctuations of a power supply supplied to the amplifying unit; Based on an amplitude acquisition unit that acquires amplitude value information, a conversion table that stores amplitude value information and frequency information of a PFM signal or a PWM signal corresponding to the amplitude value information, and amplitude value information acquired by the amplitude acquisition unit And a control amount determining unit that reads the corresponding frequency information from the conversion table and controls the frequency of the PFM signal or the PWM signal based on the read information. According to a fourth aspect of the present invention, there is provided a reproducing apparatus for amplifying a reproduction signal, a switching regulator for stabilizing a power supply voltage based on a PFM signal or a PWM signal for adjusting voltage fluctuation of a power supply supplied to the amplification section, and a reproduction An amplitude acquisition unit that acquires amplitude value information from a signal, a conversion table that stores amplitude value information and frequency information of a PFM signal or a PWM signal corresponding to the amplitude value information, and amplitude value information acquired by the amplitude acquisition unit And a control amount determination unit that reads the corresponding frequency information from the conversion table and controls the frequency of the PFM signal or the PWM signal based on the read information.

  According to the present invention, the power supplied to the amplifier can be stabilized even if the load of the amplifier fluctuates.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. FIG. 1 is a block diagram showing a configuration of a radio apparatus according to an embodiment of the present invention. In the wireless device of this embodiment, regulation control (control of power supply output) is performed based on an input signal of the power amplifier for a regulator that smoothes the power supplied to the power amplifier. As shown in FIG. 1, the wireless device 1 of this embodiment includes a data generation unit 10, a signal processing unit 20, a modulation unit 30, a predistorter 40, a power amplification unit 50, an antenna 60, a power supply unit 70, and a regulator 80. And a regulator control unit 90.

  The data generation unit 10 is a signal generation unit that generates transmission data transmitted by the wireless device 1. Various data generation units 10 can be used depending on the type of information to be transmitted. For example, if the information to be transmitted is voice, it is constituted by a microphone or an A / D converter. If the transmitted information is digital data, it is constituted by a computer terminal or the like. Alternatively, information transmitted from the outside of the wireless device 1 may be input as digital data.

  The signal processing unit 20 is a signal processing unit that processes transmission data generated by the data generation unit 10. Specifically, when the transmission data generated by the data generation unit 10 is digital data, signal processing such as encoding processing and multiplexing processing is performed. The signal processing unit 20 also passes the signal-processed transmission data to the regulator control unit 90 as a reference signal for controlling the power stabilization quality described later.

  The modulation unit 30 is a modulator that modulates transmission data subjected to signal processing by the signal processing unit 20 using a predetermined modulation method. The modulation unit 30 can use digital modulation such as quadrature amplitude modulation. The modulation signal output from the modulation unit 30 is input to the predistorter 40.

  The predistorter 40 is a distortion compensation unit that corrects distortion generated in the power amplification unit 50 connected in the subsequent stage. The power amplification unit 50 is a power that amplifies the modulation signal input via the predistorter 40. It is an amplifier. The predistorter 40 refers to the output signal of the power amplifying unit 50 and generates a correction signal having a characteristic opposite to the distortion component generated by the power amplifying unit 50. The predistorter 40 improves the distortion characteristics of the power amplification unit 50 by adding the generated correction signal to the modulation signal output from the modulation unit 30. The power amplifier 50 is preferably a power amplifier with good linear characteristics that can handle amplitude modulation. The output signal of the power amplification unit 50 is sent to the antenna 60, and radio waves are radiated from the antenna 60.

  The power supply unit 70 is a power source that supplies power to the power amplification unit 50. For example, a rechargeable battery (storage battery) or a commercial power source can be used as the power supply unit 70. The power supply voltage output from the power supply unit 70 is supplied to the regulator 80.

  The regulator 80 is power supply stabilization means that rectifies the voltage supplied from the power supply unit 70, smooths the voltage, and supplies the smoothed voltage to the power amplification unit 50. The regulator 80 has a function of stabilizing the power supply voltage by, for example, a switching regulator method. Note that the regulator 80 can control the degree of stabilization of the power output supplied to the power amplifier 50 based on a control signal sent from a regulator controller 90 described later.

  The regulator control unit 90 is a stabilization control unit that controls the quality of power supply stabilization in the regulator 80 based on the reference signal passed from the signal processing unit 20. Examples of the power supply stabilization quality include voltage fluctuation and residual ripple. The regulator control unit 90 predicts the amplitude component of the modulation signal modulated by the modulation unit 30 based on the reference signal passed from the signal processing unit 20. Then, the degree of distortion component generation in the power amplifying unit 50 is predicted from the amplitude component of the modulation signal, and the regulator 80 is controlled so that the power supply quality can correspond to the distortion component.

  The operation of the wireless device 1 shown in FIG. 1 will be described. When the data generation unit 10 generates transmission data, the signal processing unit 20 performs predetermined signal processing on the transmission data and inputs the transmission data to the modulation unit 30. The modulation unit 30 modulates the input transmission data by a predetermined modulation method, and inputs this modulated signal to the predistorter 40. The predistorter 40 that has received the modulated signal performs compensation that is the inverse characteristic of the nonlinear component of the power amplifier 50 and inputs the compensation to the power amplifier 50. The power amplifying unit 50 amplifies the input signal to a predetermined level and inputs it to the antenna 60, and the antenna 60 radiates radio waves.

  The output signal of the power amplification unit 50 is fed back to the predistorter 40. The predistorter 40 determines the compensation characteristic / compensation amount for the modulation signal based on the fed back output signal and reflects it in the compensation process as needed.

  When the power supply voltage is applied from the power supply unit 70, the regulator 80 performs rectification and smoothing processing and supplies it to the power amplification unit 50. Generally, in a power amplifier that maintains good linear characteristics such as a linear amplifier, linear characteristics deteriorate when an input signal with an amplitude exceeding the dynamic range is input or an input signal with a frequency bandwidth exceeding the design value is input. To do. Similarly, when the load of the power amplifier exceeds the design value, the linear characteristic is deteriorated. In such a condition where the linear characteristic deteriorates, the stabilization quality of the power source supplied to the power amplifier tends to affect the quality of the linear characteristic.

  Therefore, the power amplifying unit 50 of the wireless device 1 according to this embodiment performs control to improve the power stabilization quality of the power amplifying unit 50 when the linear characteristic of the power amplifying unit 50 is deteriorated. . That is, the regulator control unit 90 extracts amplitude information corresponding to the amplitude value of the transmission data as a reference signal from the signal processing unit 20, and sends a stabilization quality control signal to the regulator 80 based on the amplitude information. For example, when the amplitude information from the signal processing unit 20 indicates that it exceeds a predetermined amplitude value, the regulator control unit 90 sends a control signal to the regulator 80 so as to improve the degree of stabilization. Based on the control signal, the regulator 80 operates to dynamically increase the degree of smoothing and supply a high-quality voltage with less voltage fluctuation and ripple to the power amplification unit 50.

  Control of the stabilization quality by the regulator 80 can be realized, for example, by controlling the sampling frequency of the switching regulator.

  Thus, according to the wireless device and the amplification device of this embodiment, the regulator control unit refers to the input signal of the power amplification unit as a reference signal, and controls the regulator that supplies power to the power amplification unit based on the reference signal. Therefore, the power quality can be finely controlled according to the input signal. In addition, since the reference signal is referenced before the input signal is input to the power amplifier (so-called feedforward control is performed), the occurrence of distortion in the power amplifier can be suppressed in advance. In addition, in the radio | wireless apparatus of this embodiment, although the frequency converter is abbreviate | omitted, it is not limited to this. A frequency converter or a local oscillator that converts the modulation signal into a predetermined frequency may be provided.

  Next, the regulator 80 and the regulator control unit 90 according to the radio apparatus of this embodiment will be described in detail with reference to FIG. FIG. 2 is a block diagram illustrating configurations of the regulator 80 and the regulator control unit 90 according to the wireless device 1 of this embodiment.

  As shown in FIG. 2, the regulator 80 of this embodiment includes a rectifying / smoothing unit 81, a switch unit 82, an output smoothing unit 83, a comparison unit 84, and a switching control unit 85, and constitutes a switching regulator. The regulator control unit 90 of this embodiment includes an amplitude acquisition unit 91, a control amount determination unit 92, and a conversion table 93.

  The rectifying / smoothing unit 81 is a DC voltage generating unit that rectifies and smoothes the voltage supplied from the power supply unit 70. The rectifying / smoothing unit 81 converts the input voltage into a DC voltage using, for example, a full-wave rectifying circuit combined with a diode element. Next, the rectifying / smoothing unit 81 smoothes the converted DC voltage with a capacitor or the like, and inputs the smoothed DC voltage to the switch unit 82. The rectifying circuit of the rectifying / smoothing unit 81 may use a voltage doubler circuit, a half-wave rectifier circuit, or the like in addition to the full-wave rectifier circuit. The smoothing circuit of the rectifying / smoothing unit 81 may use an element such as a transistor in addition to a capacitor. When the power supply unit 70 supplies a DC voltage, the rectifying / smoothing unit 81 may be omitted.

  The switch unit 82 is a switching unit that stabilizes the voltage by turning on and off the supplied DC voltage. The switch unit 82 has a function of stabilizing the output voltage by repeating ON / OFF at a predetermined cycle. The DC voltage turned on / off by the switch unit 82 is passed to the output smoothing unit 83.

  The output smoothing unit 83 is a smoothing unit that smoothes the received DC voltage. The output smoothing unit 83 functions to smooth the voltage that varies depending on the on / off state of the switch in the switch unit 82 and supply the smoothed voltage to the power amplifying unit 50. The output smoothing unit 83 is realized by, for example, a capacitor or an LC filter. The output smoothing unit 83 supplies the output to the power amplification unit 50 and inputs the output to the comparison unit 84 as a reference voltage.

  The comparison unit 84 is a comparison unit that compares the voltage of a reference voltage source (not shown) with the reference voltage sent from the output smoothing unit 83. Here, the reference voltage source of the comparison unit 84 may be provided in the regulator 80, but may be configured to be input from the outside. The comparison unit 84 functions to compare whether the output voltage of the regulator 80 matches the rated voltage.

  The switching control unit 85 is a control unit that controls the switching operation of the switch unit 82 based on the comparison result by the comparison unit 84. When the output voltage of the output smoothing unit 83 is lower than the voltage of the reference voltage source as a result of the comparison by the comparison unit 84, the switching control unit 85 performs control so that the time during which the switching operation is turned off is shortened. Is controlled so as to extend the off time.

  Specifically, the switching control unit 85 generates a pulse signal and supplies the pulse signal to the switch unit 82. The switch unit 82 performs an on / off operation based on the pulse signal. When the output voltage of the output smoothing unit 83 is lower than the voltage of the reference voltage source, the switching control unit 85 performs control so that, for example, the pulse width for turning on the switch unit 82 is increased (PWM method). On the other hand, when the output voltage of the output smoothing unit 83 is larger than the voltage of the reference voltage source, the switching control unit 85 controls the pulse width for turning off the switch unit 82 to be long. The control of the pulse signal by the switching control unit 85 is not limited to the PWM method for controlling the pulse width. A PFM method for controlling the pulse frequency may be used.

  The rectifying / smoothing unit 81, the switch unit 82, the output smoothing unit 83, the comparison unit 84, and the switching control unit 85 constituting the regulator 80 are realized by a method or a circuit generally used as a switching regulator.

  The amplitude acquisition unit 91 is an amplitude value estimation unit that receives the reference signal passed from the signal processing unit 20, extracts the amplitude component of the transmission data (the amplitude component after the transmission data is modulated), and estimates the amplitude value. . The amplitude acquisition unit 91 has a function of generating an amplitude value of a modulated wave based on transmission data as digital data and passing it to the control amount determination unit 92. Specifically, the amplitude acquisition unit 91 includes a modulation unit having a modulation scheme common to the modulation unit 30 and a detection unit that performs envelope detection on the modulation output, and outputs an amplitude component of the detection output. be able to. In addition, the amplitude acquisition unit 91 includes a table that compares the value of the output data from the signal processing unit 20 with the amplitude component of the modulation output when the value of the output data is modulated by the modulation unit 30 in advance. Alternatively, the modulated amplitude component may be read and output based on the received transmission data. Thus, the amplitude acquisition unit 91 may have any configuration as long as it can generate the amplitude component of the modulation output based on the transmission data, and selects an appropriate one according to the format of the transmission data and the modulation method. Can do.

  The control amount determination unit 92 is a switching control unit that generates a control signal for switching control based on the amplitude value of the received modulated wave. The conversion table 93 is data storage means that associates the amplitude value of the modulated wave with the switching control amount of the switch unit 82. The control amount determination unit 92 has a function of reading a switching control amount corresponding to the received amplitude value from the conversion table 93 and passing the switching control amount to the switching control unit 85. The conversion table 93 may be configured to be rewritable, or may be provided outside the wireless device.

  Here, with reference to FIG. 2 and FIG. 3, the operation of the regulator 80 and the regulator control unit 90 of the wireless device 1 of this embodiment will be described. FIG. 3 is a flowchart showing the operation of the regulator and the regulator control unit in the wireless device of this embodiment. Here, a description will be given assuming that a predetermined voltage is supplied to the power amplifying unit 50.

  The power supply unit 70 inputs the voltage supplied to the power amplification unit 50 to the rectifying / smoothing unit 81 of the regulator 80. When a voltage is input, the rectifying / smoothing unit 81 rectifies and smoothes the input to generate a predetermined DC voltage (step 100; hereinafter referred to as “S100”). The rectified and smoothed DC voltage is input to the switch unit 82.

  The switch unit 82 switches the rectified / smoothed DC voltage at a predetermined sampling frequency based on the pulse signal supplied from the switching control unit 85 (S110). The switch unit 82 generates a DC voltage having a predetermined voltage by this switching operation and inputs the DC voltage to the output smoothing unit 83.

  The output smoothing unit 83 smoothes the input DC voltage again (S120). The smoothed DC voltage is supplied to the power amplifier 50 as an amplification power source. In addition, the output smoothing unit 83 also inputs the obtained DC voltage as a reference voltage to the comparison unit 84 (S130).

  The comparison unit 84 compares the voltage of a reference voltage source (not shown) with a reference voltage, and passes the comparison result to the switching control unit 85 (S140).

  The switching control unit 85 always gives a pulse signal having a predetermined sampling frequency to the switch unit 82. The switching control unit 85 controls the on / off timing of the switch unit 82 based on the comparison result passed from the comparison unit 84. This control may be realized by controlling the pulse width or directly by controlling the frequency. It may also be realized by controlling the duty cycle of the pulse signal. For example, in the example of controlling the pulse width, when the reference voltage is lower than the voltage of the reference voltage source, the pulse width for turning on the switch is controlled to be wide. In the example of controlling the frequency, when the reference voltage is lower than the voltage of the reference voltage source, the frequency of the pulse signal is controlled to be higher. Thereby, the switching amount in the switch part 82 is controlled (S150).

  Here, the amplitude acquisition unit 91 always refers to the amplitude information of the modulated wave input from the signal processing unit 20 to the power amplification unit 50 and passes it to the control amount determination unit 92 (S160).

  The control amount determination unit 92 refers to the amplitude information passed and monitors whether the amplitude (or the average value thereof) of the modulated wave input to the power amplification unit 50 is increasing or decreasing (S170).

  When the amplitude value tends to increase (Yes in S170), the load of the power amplifying unit 50 becomes heavy, and there is a high possibility that the amplification characteristic is out of the region with good linearity. Therefore, the control amount determining unit 92 reads the switching control amount information corresponding to the passed amplitude information from the conversion table 93 (S180) and inputs it to the switching control unit 85.

  The switching control unit 85 determines the sampling frequency of the pulse signal based on the switching control amount information passed from the control amount determination unit 92 (S190), and inputs it to the switch unit 83 (S200). In this case, since the distortion in the power amplification unit 50 tends to increase, for example, control is performed so as to increase the frequency of the pulse signal. Thereby, the switch operation in the switch unit 82 becomes faster, and the power supply stabilization operation of the regulator 80 can be performed more finely.

  On the other hand, when the amplitude value tends to decrease (No in S170), the power amplifying unit 50 can expect a rated operation. Therefore, no additional control is performed on the regulator 80. As a result, during steady operation, the operating frequency of the regulator 80 can be suppressed to suppress an increase in power consumption.

  In the wireless device of this embodiment, additional control is not performed on the regulator 80 when the amplitude value tends to decrease, but the present invention is not limited to this. That is, in the conversion table 93, three patterns are defined for the case where the amplitude value is rated, in the case of an upward trend, and in the case of a downward trend, and when the amplitude value is in a downward trend, the control amount determination unit lowers the frequency of the pulse signal. The switching control unit 85 may be instructed to do so. By adopting such a configuration, when the load of the power amplification unit 50 is light, the switching operation of the switch unit 82 can be positively suppressed to further reduce power consumption.

  Next, another embodiment of the present invention will be described in detail with reference to FIG. FIG. 4 is a block diagram showing a configuration of a playback apparatus according to another embodiment. As shown in FIG. 4, the playback device of this embodiment is one in which a power supply unit 70, a regulator 80, and a regulator control unit 90 are applied to an audio amplifier in the wireless device 1 of the embodiment shown in FIG.

  The playback device 2 of this embodiment includes a media reading unit 15, a signal processing unit 25, a D / A conversion unit 35, a power amplification unit 55, a speaker 65, a power supply unit 70, a regulator 80, and a regulator control unit 90. .

  The media reading unit 15 is a storage medium reading unit that reads reproduction information from a storage medium (media) on which music information or the like is recorded. As a storage medium for reading reproduction information, for example, a medium that stores analog reproduction information such as CD, DVD, or MO as a digital signal can be used. The media reading unit 15 operates to read reproduction information from the storage medium and pass it to the signal processing unit 25.

  The signal processing unit 25 is a signal processing unit that performs signal processing necessary for reproduction on the received digital reproduction information. The signal processing unit 25 has a function of, for example, converting reproduction information into reproducible data or expanding compressed data. The signal processing unit 25 performs predetermined signal processing on the received reproduction information and passes it to the D / A conversion unit 35. In addition, it has a function of passing the reproduction information to the regulator control unit 90 as reference information.

  The D / A conversion unit 35 is D / A conversion means for converting digital reproduction information into analog reproduction information. When the digital reproduction information is received from the signal processing unit 25, the D / A conversion unit 35 converts it into an analog signal and inputs it to the power amplification unit 55.

  The power amplifying unit 55 is a linear amplifier that amplifies analog reproduction information to a predetermined level. The power amplifier 55 uses an amplifier with good linearity in order to amplify analog reproduction information (acoustic information). The power amplifier 55 amplifies the received analog reproduction information to a predetermined level and outputs it to the speaker 65. The speaker 65 outputs the input reproduction information as sound.

  The internal configurations of the power supply unit 70, the regulator 80, and the regulator control unit 90 are the same as those in the wireless device according to the embodiment shown in FIGS.

  The operation of the playback device 2 shown in FIG. 4 will be described. When the media reading unit 15 reads the reproduction information, the signal processing unit 25 performs predetermined signal processing on the reproduction information and inputs the signal to the D / A conversion unit 35. The D / A conversion unit 35 converts the input reproduction information into analog reproduction information and inputs the analog reproduction information to the power amplification unit 55. The power amplifying unit 55 amplifies the analog reproduction information to a predetermined level and outputs it to the speaker 65.

  The operations of the power supply unit 70, the regulator 80, and the regulator control unit 90 are the same as those of the wireless device according to the embodiment shown in FIGS. When the power supply voltage is applied from the power supply unit 70, the regulator 80 performs rectification and smoothing processing and supplies it to the power amplification unit 55. Also in this embodiment, when the condition for deteriorating the linear characteristic of the power amplifying unit 50 is satisfied, control for improving the power supply stabilization quality of the power amplifying unit 55 is performed. That is, the regulator control unit 90 extracts amplitude information corresponding to the amplitude value of the reproduction information as a reference signal from the signal processing unit 25, and sends a stabilization quality control signal to the regulator 80 based on the amplitude information. For example, when the amplitude information from the signal processing unit 25 indicates that it exceeds a predetermined amplitude value, the regulator control unit 90 sends a control signal to the regulator 80 so as to improve the degree of stabilization. Based on the control signal, the regulator 80 operates to dynamically increase the degree of smoothing and input a high-quality voltage with less voltage fluctuation and ripple to the power amplification unit 55.

  Control of the stabilization quality by the regulator 80 can be realized, for example, by controlling the sampling frequency of the switching regulator.

  Thus, according to the reproducing apparatus and the power amplifier of this embodiment, the regulator control unit refers to the input signal of the power amplification unit as the reference signal, and controls the regulator that supplies power to the power amplification unit based on the reference signal. Therefore, the power quality can be finely controlled according to the input signal. In addition, since the reference signal is referenced before the input signal is input to the power amplification unit, the occurrence of distortion in the power amplification unit can be suppressed in advance.

  In addition, this invention is not limited only to the said embodiment. In the above embodiment, the regulation is controlled with reference to the digital stage signal, but the present invention is not limited to this. That is, the reference signal may be extracted from any position as long as the amplitude information can be acquired from the previous stage of the input of the power amplifier. Further, the reference signal is not limited to digital but may be an analog signal. Furthermore, in the above embodiment, the regulation is controlled based on the amplitude information. However, the present invention is not limited to this, and the same effect can be obtained by using other parameters such as frequency bandwidth that can deteriorate the linear characteristics of the amplifier. It is possible to obtain.

It is a block diagram which shows the structure of the radio | wireless apparatus which concerns on one Embodiment of this invention. It is a block diagram which shows the structure of the regulator and regulator control part in the radio | wireless apparatus of this embodiment. It is a flowchart which shows operation | movement of the regulator and regulator control part in the radio | wireless apparatus of this embodiment. It is a block diagram which shows the structure of the reproducing | regenerating apparatus which concerns on other embodiment of this invention.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 ... Wireless apparatus, 10 ... Data generation part, 20 ... Signal processing part, 30 ... Modulation part, 40 ... Predistorter, 50 ... Power amplification part, 60 ... Antenna, 70 ... Power supply part, 80 ... Regulator, 81 ... Rectifier / smoothing unit 82 ... switch unit 83 ... output smoothing unit 84 ... comparison unit 85 ... switching control unit 90 ... regulator control unit 91 ... amplitude acquisition unit 92 ... control amount determination unit 93 ... conversion table

Claims (6)

A power supply for supplying power to an amplifier,
A switching regulator that stabilizes the voltage of the power supply based on a PFM signal or a PWM signal that adjusts the voltage fluctuation of the power supply;
An amplitude acquisition unit for acquiring amplitude value information from the input signal of the amplifier;
A conversion table storing the amplitude value information and frequency information of the PFM signal or PWM signal corresponding to the amplitude value information;
A control amount determination unit that reads out the corresponding frequency information from the conversion table based on the amplitude value information acquired by the amplitude acquisition unit, and controls the frequency of the PFM signal or the PWM signal based on the read information; A power supply device comprising the power supply device.   The power supply apparatus according to claim 1, wherein the stability control unit extracts amplitude information from a digital input signal to acquire the amplitude level. An amplifier for amplifying the input signal;
A switching regulator that stabilizes the voltage of the power supply based on a PFM signal or a PWM signal that adjusts voltage fluctuations of the power supply supplied to the amplification unit;
An amplitude acquisition unit that acquires amplitude value information from an input signal of the amplification unit;
A conversion table storing the amplitude value information and frequency information of the PFM signal or PWM signal corresponding to the amplitude value information;
A control amount determination unit that reads out the corresponding frequency information from the conversion table based on the amplitude value information acquired by the amplitude acquisition unit, and controls the frequency of the PFM signal or the PWM signal based on the read information; An amplifying device characterized by comprising.   The amplification device according to claim 3, wherein the stability control unit extracts amplitude information from a digital input signal to acquire the amplitude level. An amplifier for amplifying the transmission signal;
A switching regulator that stabilizes the voltage of the power supply based on a PFM signal or a PWM signal that adjusts voltage fluctuations of the power supply supplied to the amplification unit;
An amplitude acquisition unit for acquiring amplitude value information from the transmission signal;
A conversion table storing the amplitude value information and frequency information of the PFM signal or PWM signal corresponding to the amplitude value information;
A control amount determination unit that reads out the corresponding frequency information from the conversion table based on the amplitude value information acquired by the amplitude acquisition unit, and controls the frequency of the PFM signal or the PWM signal based on the read information; A wireless device comprising the wireless device. An amplification unit for amplifying the reproduction signal;
A switching regulator that stabilizes the voltage of the power supply based on a PFM signal or a PWM signal that adjusts voltage fluctuations of the power supply supplied to the amplification unit;
An amplitude acquisition unit for acquiring amplitude value information from the reproduction signal;
A conversion table storing the amplitude value information and frequency information of the PFM signal or PWM signal corresponding to the amplitude value information;
A control amount determination unit that reads out the corresponding frequency information from the conversion table based on the amplitude value information acquired by the amplitude acquisition unit, and controls the frequency of the PFM signal or the PWM signal based on the read information; A playback apparatus characterized by comprising.

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